1) reaction synthesis processing
反应合成法
1.
A thermodynamic calculation and data analysis were carried out for silver tin oxide composite material prepared by reaction synthesis processing using Gibbs Helmholtz equation.
运用GibbsHelmholtz方程进行了反应合成法制备AgSnO2复合材料的热力学计算和数据分析。
2.
Silver tin oxide (AgSnO_2) electrical contact material as fabricated by a new manufacturing technology (reaction synthesis processing).
采用一种新的工艺 (反应合成法 )制备了AgSnO2 电接触材料 ,并对AgSnO2 材料进行了显微组织和力学性能研究。
2) reactive synthesis
反应合成法
1.
The main differences of the microstructure of silver tin oxide fabricated both in conventional powder metallurgy and reactive synthesis after laser scanning were studied in present paper.
研究了用反应合成法和粉末冶金法两种工艺制备的AgSnO2电接触材料经激光扫描后的微观结构差异。
2.
The differences of sintered bulk in the microstructure for silver tin oxide(AgSnO2) fabricated in both conentional powder metallurgy and reactive synthesis had been studied in present paper.
研究了粉末冶金法和反应合成法制备的银氧化锡(AgSnO2)复合材料烧结坯在组织上的区别。
3.
The differences of the microstructure and properties of the sintered body, between the fabrication method of powder metallurgy and reactive synthesis for AgCuO materials, were investigated in present thesis.
本论文研究了反应合成法和粉末冶金法制备的AgCuO材料烧结坯在组织上和性能上的区别。
3) the in-situ synthesized method
原位反应合成法
1.
The TiC particle strengthened 2618 composite was prepared by the in-situ synthesized method(or XD method).
用原位反应合成法 (即XD法 )制备了TiC颗粒增强 2 618复合材料 ,并用X -ray衍射分析技术、透射电镜及拉伸实验对其结构和性能进行了研究 结果表明 :利用原位反应合成法可以制备TiC增强多元素合金 2 618为基体的复合材料 ;与普通熔铸法相比 ,逆向熔铸法可以缩短熔铸时间 ,减少TiC粒子损失 ,从而制得较为理想的复合材料 ;TiC粒子的加入可以提高 2 618合金的力学性能 图 6,表 1,参
4) synthesis by solid state reaction
固相反应合成法
5) reactive synthesis
反应合成
1.
Research on reactive synthesis TiC/Al composite coatings by laser cladding;
激光熔覆反应合成TiC/Al基复合涂层研究
2.
The finite element simulation was adopted for severe plastic deformation of reactive synthesis AgMeO composites.
采用有限元模拟技术对反应合成的AgSnO2和AgCuO复合材料的大塑性变形过程进行模拟,研究在不同真应变条件下,AgSnO2和AgCuO复合材料显微组织均匀化的程度。
3.
The Ag/SnO2 composites were prepared by reactive synthesis and the microstructure uniformity and performance variation of Ag/SnO2 composites in the severe plastic deformation were investigated.
使用反应合成法制备了Ag/SnO2材料,考察了Ag/SnO2材料在大塑性变形过程中的组织均匀化及性能变化情况。
6) reaction synthesis
反应合成
1.
In Situ Aluminium Matrix Composites by Solid/Melt Reaction Synthesis;
固液反应合成铝基自生复合材料
2.
The Al matrix composites by reaction synthesis put up high mechanical behavior, well high-temperature properties and excellent wearing quality but the existent difficulties lie in that homogenizing method is not perfect, fundamental research to growth mechanism i.
反应合成的铝基复合材料具有常温力学性能高、高温性能好和耐磨性突出的优点,而存在的主要研究难题则是整个材料均质化方法不理想、生长机制等基础理论研究缺乏、反应伴生的化合物难以控制等。
补充资料:蒂曼氨基腈合成反应
分子式:
CAS号:
性质: 是施特雷克尔α-氨基酸合成法(Strecher α-aminoacid synthesis)的改进。醛或酮首先与氰化氢反应生成羟腈,氨解转变水解可得α-氨基酸。收率较高。
CAS号:
性质: 是施特雷克尔α-氨基酸合成法(Strecher α-aminoacid synthesis)的改进。醛或酮首先与氰化氢反应生成羟腈,氨解转变水解可得α-氨基酸。收率较高。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条